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//! Application state for the NoETL Control Plane server.
//!
//! This module defines the shared application state that is
//! passed to all handlers via Axum's state management.
use crate::config::AppConfig;
use crate::db::DbPool;
use crate::snowflake::{derive_machine_id, SnowflakeGenerator};
use std::sync::Arc;
/// Shared application state.
///
/// This struct holds all shared resources that handlers need access to.
/// It is wrapped in an `Arc` and passed to handlers via Axum's state.
#[derive(Clone)]
pub struct AppState {
/// Database connection pool
pub db: DbPool,
/// Application configuration
pub config: Arc<AppConfig>,
/// NATS client (optional)
pub nats: Option<Arc<async_nats::Client>>,
/// Application-side snowflake ID generator. Phase F R1.5 of
/// [noetl/ai-meta#49](https://github.com/noetl/ai-meta/issues/49)
/// moved id generation out of the DB-side `noetl.snowflake_id()`
/// function into this generator so (a) spans see ids before the
/// DB round-trip, (b) retries stay idempotent, (c) the upcoming
/// sharded layout (R4) can pin `machine_id` per pod via the
/// deployment manifest. See `src/snowflake.rs` for the id
/// layout and migration rationale.
pub snowflake: Arc<SnowflakeGenerator>,
/// Server start time for uptime calculation
pub start_time: std::time::Instant,
}
impl AppState {
/// Create a new application state.
///
/// # Arguments
///
/// * `db` - Database connection pool
/// * `config` - Application configuration
/// * `nats` - Optional NATS client
///
/// Reads `server_machine_id` from `config.server_machine_id`
/// (envy: `NOETL_SERVER_MACHINE_ID`). When unset, derives a
/// 10-bit id from the process hostname via FNV-1a — fine for
/// local dev; the deployment manifest should set the env var
/// explicitly per replica in production.
///
/// # Returns
///
/// A new `AppState` instance.
///
/// # Panics
///
/// Panics if the configured `server_machine_id` exceeds the
/// 10-bit max (1023). The caller should validate at
/// config-load time; this is the last-resort guard.
pub fn new(db: DbPool, config: AppConfig, nats: Option<async_nats::Client>) -> Self {
let machine_id = config.server_machine_id.unwrap_or_else(|| {
let hostname = std::env::var("HOSTNAME")
.or_else(|_| std::env::var("COMPUTERNAME"))
.unwrap_or_else(|_| "noetl-server-local".to_string());
derive_machine_id(&hostname)
});
let snowflake = SnowflakeGenerator::new(machine_id)
.expect("server_machine_id must fit in 10 bits; validate config at startup");
tracing::info!(
machine_id = snowflake.machine_id(),
source = if config.server_machine_id.is_some() {
"NOETL_SERVER_MACHINE_ID"
} else {
"derived from HOSTNAME"
},
"Snowflake generator initialized"
);
Self {
db,
config: Arc::new(config),
nats: nats.map(Arc::new),
snowflake: Arc::new(snowflake),
start_time: std::time::Instant::now(),
}
}
/// Get the server uptime in seconds.
pub fn uptime_seconds(&self) -> u64 {
self.start_time.elapsed().as_secs()
}
/// Check if NATS is configured and connected.
pub fn has_nats(&self) -> bool {
self.nats.is_some()
}
}
#[cfg(test)]
mod tests {
// Note: Full tests require a database connection
// These are placeholder tests for documentation
#[test]
fn test_uptime() {
// AppState::new requires a real DB pool, so we can't easily test here
// This is a documentation placeholder
}
}